| /**************************************************************************** |
| ** |
| ** Copyright (C) 2016 The Qt Company Ltd. |
| ** Contact: https://www.qt.io/licensing/ |
| ** |
| ** This file is part of the documentation of the Qt Toolkit. |
| ** |
| ** $QT_BEGIN_LICENSE:FDL$ |
| ** Commercial License Usage |
| ** Licensees holding valid commercial Qt licenses may use this file in |
| ** accordance with the commercial license agreement provided with the |
| ** Software or, alternatively, in accordance with the terms contained in |
| ** a written agreement between you and The Qt Company. For licensing terms |
| ** and conditions see https://www.qt.io/terms-conditions. For further |
| ** information use the contact form at https://www.qt.io/contact-us. |
| ** |
| ** GNU Free Documentation License Usage |
| ** Alternatively, this file may be used under the terms of the GNU Free |
| ** Documentation License version 1.3 as published by the Free Software |
| ** Foundation and appearing in the file included in the packaging of |
| ** this file. Please review the following information to ensure |
| ** the GNU Free Documentation License version 1.3 requirements |
| ** will be met: https://www.gnu.org/licenses/fdl-1.3.html. |
| ** $QT_END_LICENSE$ |
| ** |
| ****************************************************************************/ |
| |
| /*! |
| \example itemviews/simpletreemodel |
| \title Simple Tree Model Example |
| \ingroup examples-itemviews |
| \ingroup examples-layout |
| \brief The Simple Tree Model example shows how to use a hierarchical model |
| with Qt's standard view classes. |
| |
| \brief The Simple Tree Model example shows how to create a basic, read-only |
| hierarchical model to use with Qt's standard view classes. For a |
| description of simple non-hierarchical list and table models, see the |
| \l{Model/View Programming} overview. |
| |
| \image simpletreemodel-example.png |
| |
| Qt's model/view architecture provides a standard way for views to |
| manipulate information in a data source, using an abstract model |
| of the data to simplify and standardize the way it is accessed. |
| Simple models represent data as a table of items, and allow views |
| to access this data via an |
| \l{Model/View Programming#Models}{index-based} system. More generally, |
| models can be used to represent data in the form of a tree structure |
| by allowing each item to act as a parent to a table of child items. |
| |
| Before attempting to implement a tree model, it is worth considering whether |
| the data is supplied by an external source, or whether it is going to be |
| maintained within the model itself. In this example, we will implement an |
| internal structure to hold data rather than discuss how to package data from |
| an external source. |
| |
| \section1 Design and Concepts |
| |
| The data structure that we use to represent the structure of the data takes |
| the form of a tree built from \c TreeItem objects. Each \c TreeItem |
| represents an item in a tree view, and contains several columns of data. |
| |
| \target SimpleTreeModelStructure |
| \table |
| \row \li \inlineimage treemodel-structure.png |
| \li \b{Simple Tree Model Structure} |
| |
| The data is stored internally in the model using \c TreeItem objects that |
| are linked together in a pointer-based tree structure. Generally, each |
| \c TreeItem has a parent item, and can have a number of child items. |
| However, the root item in the tree structure has no parent item and it |
| is never referenced outside the model. |
| |
| Each \c TreeItem contains information about its place in the tree |
| structure; it can return its parent item and its row number. Having |
| this information readily available makes implementing the model easier. |
| |
| Since each item in a tree view usually contains several columns of data |
| (a title and a summary in this example), it is natural to store this |
| information in each item. For simplicity, we will use a list of QVariant |
| objects to store the data for each column in the item. |
| \endtable |
| |
| The use of a pointer-based tree structure means that, when passing a |
| model index to a view, we can record the address of the corresponding |
| item in the index (see QAbstractItemModel::createIndex()) and retrieve |
| it later with QModelIndex::internalPointer(). This makes writing the |
| model easier and ensures that all model indexes that refer to the same |
| item have the same internal data pointer. |
| |
| With the appropriate data structure in place, we can create a tree model |
| with a minimal amount of extra code to supply model indexes and data to |
| other components. |
| |
| \section1 TreeItem Class Definition |
| |
| The \c TreeItem class is defined as follows: |
| |
| \snippet itemviews/simpletreemodel/treeitem.h 0 |
| |
| The class is a basic C++ class. It does not inherit from QObject or |
| provide signals and slots. It is used to hold a list of QVariants, |
| containing column data, and information about its position in the tree |
| structure. The functions provide the following features: |
| |
| \list |
| \li The \c appendChildItem() is used to add data when the model is first |
| constructed and is not used during normal use. |
| \li The \c child() and \c childCount() functions allow the model to obtain |
| information about any child items. |
| \li Information about the number of columns associated with the item is |
| provided by \c columnCount(), and the data in each column can be |
| obtained with the data() function. |
| \li The \c row() and \c parent() functions are used to obtain the item's |
| row number and parent item. |
| \endlist |
| |
| The parent item and column data are stored in the \c parentItem and |
| \c itemData private member variables. The \c childItems variable contains |
| a list of pointers to the item's own child items. |
| |
| \section1 TreeItem Class Implementation |
| |
| The constructor is only used to record the item's parent and the data |
| associated with each column. |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 0 |
| |
| A pointer to each of the child items belonging to this item will be |
| stored in the \c childItems private member variable. When the class's |
| destructor is called, it must delete each of these to ensure that |
| their memory is reused: |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 1 |
| |
| Since each of the child items are constructed when the model is initially |
| populated with data, the function to add child items is straightforward: |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 2 |
| |
| Each item is able to return any of its child items when given a suitable |
| row number. For example, in the \l{#SimpleTreeModelStructure}{above diagram}, |
| the item marked with the letter "A" corresponds to the child of the root item |
| with \c{row = 0}, the "B" item is a child of the "A" item with \c{row = 1}, |
| and the "C" item is a child of the root item with \c{row = 1}. |
| |
| The \c child() function returns the child that corresponds to |
| the specified row number in the item's list of child items: |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 3 |
| |
| The number of child items held can be found with \c childCount(): |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 4 |
| |
| The \c TreeModel uses this function to determine the number of rows that |
| exist for a given parent item. |
| |
| The \c row() function reports the item's location within its parent's |
| list of items: |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 8 |
| |
| Note that, although the root item (with no parent item) is automatically |
| assigned a row number of 0, this information is never used by the model. |
| |
| The number of columns of data in the item is trivially returned by the |
| \c columnCount() function. |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 5 |
| |
| Column data is returned by the \c data() function. The bounds are checked |
| before accessing the container with the data: |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 6 |
| |
| The item's parent is found with \c parent(): |
| |
| \snippet itemviews/simpletreemodel/treeitem.cpp 7 |
| |
| Note that, since the root item in the model will not have a parent, this |
| function will return zero in that case. We need to ensure that the model |
| handles this case correctly when we implement the \c TreeModel::parent() |
| function. |
| |
| \section1 TreeModel Class Definition |
| |
| The \c TreeModel class is defined as follows: |
| |
| \snippet itemviews/simpletreemodel/treemodel.h 0 |
| |
| This class is similar to most other subclasses of QAbstractItemModel that |
| provide read-only models. Only the form of the constructor and the |
| \c setupModelData() function are specific to this model. In addition, we |
| provide a destructor to clean up when the model is destroyed. |
| |
| \section1 TreeModel Class Implementation |
| |
| For simplicity, the model does not allow its data to be edited. As a |
| result, the constructor takes an argument containing the data that the |
| model will share with views and delegates: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 0 |
| |
| It is up to the constructor to create a root item for the model. This |
| item only contains vertical header data for convenience. We also use it |
| to reference the internal data structure that contains the model data, |
| and it is used to represent an imaginary parent of top-level items in |
| the model. |
| |
| The model's internal data structure is populated with items by the |
| \c setupModelData() function. We will examine this function separately |
| at the end of this document. |
| |
| The destructor ensures that the root item and all of its descendants |
| are deleted when the model is destroyed: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 1 |
| |
| Since we cannot add data to the model after it is constructed and set |
| up, this simplifies the way that the internal tree of items is managed. |
| |
| Models must implement an \c index() function to provide indexes for |
| views and delegates to use when accessing data. Indexes are created |
| for other components when they are referenced by their row and column |
| numbers, and their parent model index. If an invalid model |
| index is specified as the parent, it is up to the model to return an |
| index that corresponds to a top-level item in the model. |
| |
| When supplied with a model index, we first check whether it is valid. |
| If it is not, we assume that a top-level item is being referred to; |
| otherwise, we obtain the data pointer from the model index with its |
| \l{QModelIndex::internalPointer()}{internalPointer()} function and use |
| it to reference a \c TreeItem object. Note that all the model indexes |
| that we construct will contain a pointer to an existing \c TreeItem, |
| so we can guarantee that any valid model indexes that we receive will |
| contain a valid data pointer. |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 6 |
| |
| Since the row and column arguments to this function refer to a |
| child item of the corresponding parent item, we obtain the item using |
| the \c TreeItem::child() function. The |
| \l{QAbstractItemModel::createIndex()}{createIndex()} function is used |
| to create a model index to be returned. We specify the row and column |
| numbers, and a pointer to the item itself. The model index can be used |
| later to obtain the item's data. |
| |
| The way that the \c TreeItem objects are defined makes writing the |
| \c parent() function easy: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 7 |
| |
| We only need to ensure that we never return a model index corresponding |
| to the root item. To be consistent with the way that the \c index() |
| function is implemented, we return an invalid model index for the |
| parent of any top-level items in the model. |
| |
| When creating a model index to return, we must specify the row and |
| column numbers of the parent item within its own parent. We can |
| easily discover the row number with the \c TreeItem::row() function, |
| but we follow a convention of specifying 0 as the column number of |
| the parent. The model index is created with |
| \l{QAbstractItemModel::createIndex()}{createIndex()} in the same way |
| as in the \c index() function. |
| |
| The \c rowCount() function simply returns the number of child items |
| for the \c TreeItem that corresponds to a given model index, or the |
| number of top-level items if an invalid index is specified: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 8 |
| |
| Since each item manages its own column data, the \c columnCount() |
| function has to call the item's own \c columnCount() function to |
| determine how many columns are present for a given model index. |
| As with the \c rowCount() function, if an invalid model index is |
| specified, the number of columns returned is determined from the |
| root item: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 2 |
| |
| Data is obtained from the model via \c data(). Since the item manages |
| its own columns, we need to use the column number to retrieve the data |
| with the \c TreeItem::data() function: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 3 |
| |
| Note that we only support the \l{Qt::ItemDataRole}{DisplayRole} |
| in this implementation, and we also return invalid QVariant objects for |
| invalid model indexes. |
| |
| We use the \c flags() function to ensure that views know that the |
| model is read-only: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 4 |
| |
| The \c headerData() function returns data that we conveniently stored |
| in the root item: |
| |
| \snippet itemviews/simpletreemodel/treemodel.cpp 5 |
| |
| This information could have been supplied in a different way: either |
| specified in the constructor, or hard coded into the \c headerData() |
| function. |
| |
| \section1 Setting Up the Data in the Model |
| |
| We use the \c setupModelData() function to set up the initial data in |
| the model. This function parses a text file, extracting strings of |
| text to use in the model, and creates item objects that record both |
| the data and the overall model structure. |
| Naturally, this function works in a way that is very specific to |
| this model. We provide the following description of its behavior, |
| and refer the reader to the example code itself for more information. |
| |
| We begin with a text file in the following format: |
| |
| \code |
| Getting Started How to familiarize yourself with Qt Designer |
| Launching Designer Running the Qt Designer application |
| The User Interface How to interact with Qt Designer |
| \endcode |
| \dots |
| \code |
| Connection Editing Mode Connecting widgets together with signals and slots |
| Connecting Objects Making connections in Qt Designer |
| Editing Connections Changing existing connections |
| \endcode |
| |
| We process the text file with the following two rules: |
| |
| \list |
| \li For each pair of strings on each line, create an item (or node) |
| in a tree structure, and place each string in a column of data |
| in the item. |
| \li When the first string on a line is indented with respect to the |
| first string on the previous line, make the item a child of the |
| previous item created. |
| \endlist |
| |
| To ensure that the model works correctly, it is only necessary to |
| create instances of \c TreeItem with the correct data and parent item. |
| */ |